The disclosed method may include (i) aggregating, within a group network application, program user accounts registered to perform a respective task defined in a database of the group network application with resource user accounts registered as sources to provide resources for performance of the respective task, (ii) provisioning a program application subcomponent within the group network application that enables a specific program user account to complete a program data structure that defines the respective task, (iii) provisioning a metadata application subcomponent within the group network application that enables the specific program user account to enter rich network data that describes the respective task defined in the database, and (iv) linking, within the database of the group network application, and in response to user instruction, the program data structure completed through the program application subcomponent with the rich network data entered through the metadata application subcomponent.
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2. The method of claim 1, wherein the interface enables the specific program user account to enter the set of at least one dimension at least in part by selecting a graphical user interface button indicating an addition of a new dimension.
A system and method for managing user-defined dimensions in a data analysis platform addresses the challenge of enabling users to dynamically add and customize dimensions for data visualization and analysis. The invention provides an interface that allows a specific program user account to enter a set of at least one dimension by selecting a graphical user interface button indicating the addition of a new dimension. This interface facilitates the creation and modification of dimensions, which are used to categorize, filter, or analyze data within the platform. The system ensures that the entered dimensions are validated and stored for subsequent use in data queries, reports, or visualizations. The method supports real-time updates to dimensions, allowing users to adapt their data analysis workflows without requiring system-wide configuration changes. The invention improves user flexibility and efficiency in data analysis by providing an intuitive way to define and manage custom dimensions.
3. The method of claim 1, wherein the interface displays, for each dimension in the at least one dimension, a starting value.
This invention relates to data visualization systems that allow users to explore and analyze multidimensional data. The problem addressed is the difficulty in effectively presenting and interacting with high-dimensional datasets, where users often struggle to understand relationships between variables due to the complexity of the data. The system provides a graphical user interface that displays a plurality of dimensions representing different variables or attributes of the data. For each dimension, the interface shows a starting value, which serves as an initial reference point for analysis. Users can manipulate these dimensions to filter, sort, or group the data, enabling interactive exploration. The interface may also include visual representations such as charts, graphs, or tables to help users interpret the data. Additionally, the system allows users to adjust the starting values of the dimensions, which dynamically updates the displayed data to reflect the changes. This feature helps users refine their analysis by setting specific thresholds or ranges for each dimension. The interface may also support hierarchical or nested dimensions, where dimensions can be expanded or collapsed to reveal or hide sub-dimensions, providing a flexible way to navigate complex datasets. The invention improves data analysis by simplifying the visualization of multidimensional data and enabling intuitive user interactions. This allows users to gain insights more efficiently, even when dealing with large or complex datasets.
4. The method of claim 1, wherein the interface displays, for a specific dimension, a cancellation graphical user interface button that, when selected, deletes the specific dimension.
5. The method of claim 1, wherein the graphical user interface displays simultaneously both the updated graph that plots each one of the set of at least one dimension and the interface that enables the specific program user account to enter separately the set of at least one dimension to define the respective task and the at least two of the goal, the metric, the measure, and the target.
6. The method of claim 1, wherein the updated graph plots an average of each one of the set of at least one dimension in addition to plotting each one of the set of at least one dimension across the axis.
7. The method of claim 1, wherein the updated graph indicates a count along a first axis of the updated graph and indicates time along a second axis of the updated graph.
8. The method of claim 1, wherein the updated graph plots each one of the set of at least one dimension in a separate color.
9. The method of claim 1, wherein the updated graph displays a bar across one axis of the updated graph such that the bar indicates a goal to be achieved in terms of the respective task.
10. The method of claim 1, wherein the graphical user interface further displays a numerical count that indicates progress toward a goal to be achieved in terms of the respective task.
11. The method of claim 10, wherein the graphical user interface further displays the numerical count as a numerator within a numerical ratio.
A system and method for visualizing data in a graphical user interface (GUI) involves displaying a numerical count as part of a numerical ratio. The GUI presents data in a structured format, where the numerical count is shown as the numerator in a ratio, with a denominator derived from a predefined or dynamically calculated value. This ratio may represent a proportion, percentage, or other relative measurement, providing users with a clear and intuitive way to understand the relationship between the displayed count and a reference value. The system may also include additional features such as filtering, sorting, or interactive elements to enhance data exploration. The method ensures that the ratio is dynamically updated in response to user interactions or changes in the underlying data, maintaining accuracy and relevance. This approach is particularly useful in applications requiring comparative analysis, such as performance metrics, statistical summaries, or real-time monitoring. The GUI may further include visual indicators, tooltips, or contextual information to assist users in interpreting the ratio and its significance. The system is designed to be scalable, supporting large datasets while maintaining responsiveness and clarity in the displayed information.
12. The method of claim 11, wherein a denominator within the numerical ratio corresponds to the goal to be achieved in terms of their respective task.
This invention relates to a method for optimizing task performance by adjusting a numerical ratio based on a predefined goal. The method involves defining a goal for a task, where the goal represents a desired outcome or performance metric. A numerical ratio is then calculated, where the denominator of the ratio corresponds to the predefined goal. The method adjusts the ratio dynamically to improve task performance, ensuring alignment with the goal. The adjustment may involve modifying the numerator or denominator of the ratio based on real-time feedback or predefined criteria. This approach allows for adaptive optimization of tasks by continuously refining the ratio to achieve the desired outcome. The method can be applied in various domains, such as process control, resource allocation, or performance management, where tasks must be optimized to meet specific objectives. By dynamically adjusting the ratio, the method ensures that the task performance remains aligned with the predefined goal, improving efficiency and effectiveness.
13. The method of claim 1, wherein the graphical user interface is provided through a web interface.
14. The method of claim 1, wherein a respective graphical user interface element is configured for the set of at least one dimension or at least one of the metric, the measure, and the target such that the graphical user interface element, when interacted with by a graphical user interface cursor, triggers a tooltip pop-up notification that provides a respective explanation of the dimension, the metric, the measure, or the target accordingly.
15. The method of claim 1, wherein the interface requests for the specific program user account to enter separately the set of at least one dimension to define the respective task and the at least two of the goal, the metric, the measure, and the target.
16. The method of claim 1, wherein the graphical user interface enables the specific program user account to enter a plurality of goals that are assigned, within the group network application, to the respective task.
17. The method of claim 1, wherein the interface effectively guides the specific program user account through a process of completing the program data structure that defines the respective task.
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March 17, 2022
October 11, 2022
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